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Electromagnetic education: Development of an interactive GUI for demonstrating wave polarization
Computer Applications in Engineering Education ( IF 2.9 ) Pub Date : 2020-07-14 , DOI: 10.1002/cae.22296
Shin Yun Wong 1 , Soo Yong Lim 1
Affiliation  

Over the years, we have seen rapid advances in technology that have contributed to the modern lifestyle. It is obvious that there is a strong correlation between technological advances and the quality of education that has been provided to students. It is fair to say that the current educational system is reasonably good, because it has successfully created a platform for innovation in science and technology. However, there seems to be a lack of integration of technology into the education system. The goal of this paper is to utilize technology to improve the quality of electromagnetics education. It documents the development of a MATLAB‐based graphical user interface to visualize plane wave polarization, electromagnetic wave propagation in two and three‐dimensions, plane wavefronts, and spherical wavefronts. The multiwindow app allows users to customize the wave parameters such as amplitude, frequency, phase shift, and attenuation constant. This interactive application does not aim to replace teachers and lecturers, but it serves to enhance the teaching process and to help students better understand the relevant concepts.

中文翻译:

电磁教育:开发用于演示波极化的交互式 GUI

多年来,我们见证了技术的快速进步,这些进步为现代生活方式做出了贡献。很明显,技术进步与提供给学生的教育质量之间存在很强的相关性。可以说,目前的教育体系还算不错,因为它成功地创造了一个科技创新的平台。然而,似乎缺乏技术与教育系统的整合。本文的目标是利用技术来提高电磁学教育的质量。它记录了基于 MATLAB 的图形用户界面的开发,用于可视化平面波极化、二维和三维电磁波传播、平面波前和球面波前。多窗口应用程序允许用户自定义波参数,例如幅度、频率、相移和衰减常数。此交互式应用程序的目的不是取代教师和讲师,而是用于改进教学过程并帮助学生更好地理解相关概念。
更新日期:2020-07-14
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